CN216261346U - Device for producing high-purity quartz sand by composite method - Google Patents

Abstract

The utility model discloses a device for producing high-purity quartz sand by a composite method, which comprises an installation bottom plate, wherein fixing support rods are vertically fixed at two ends of two sides of the top of the installation bottom plate respectively. This device of high-purity quartz sand of composite process production is through getting rid of the in-process of iron mineral magnetic separation to the quartz granules that process out, can be through treat that the quartz granules of magnetic separation are leading-in to the inside of handling the case and drop to the top of screen cloth in the pan feeding mouth, drive through vibrating motor and handle the case whole and vibrate, the quartz granules that drop to the screen cloth top will carry out the screening of size by the screen cloth, the quartz granules that accord with the footpath grain size can be dropped to carry out the magnetic separation on the plate-shaped electro-magnet by the screen cloth, the quartz granules that are not conform to the size will be derived the outside of handling the case and collected by the workbin by one side process of screen cloth in leading to, just carry out supplementary size screening to the quartz granules before carrying out the magnetic separation, the inconvenient problem of carrying out supplementary size screening to the quartz granules before carrying out the magnetic separation has been solved.

Description

Device for producing high-purity quartz sand by composite method

Technical Field

The utility model relates to the technical field of quartz sand processing, in particular to a device for producing high-purity quartz sand by a composite method.

Background

Quartz sand is as a non-metallic mineral substance, it not only has hard wear-resisting but also chemical stability, quartz sand obtains the quartz sand of certain purity after screening and washing by the quartz particle after the quartz stone is broken earlier at the in-process of production, quartz sand needs to use dedicated device in the production process of magnetic separation, but the device of some present composite method production high-purity quartz sand does not have a measure of being convenient for carry out the dismouting to the inside magnetic separation subassembly of device at the in-process that uses, do not have a measure of just carrying out supplementary size screening to quartz particle before carrying out the magnetic separation simultaneously, and also do not have a measure of being convenient for carry out timely processing to a large amount of smoke and dust that the magnetic separation in-process produced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a device for producing high-purity quartz sand by a composite method, which solves the problem that a magnetic separation component in the device is inconvenient to disassemble and assemble in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a device for producing high-purity quartz sand by a composite method comprises an installation bottom plate, wherein two ends of two sides of the top of the installation bottom plate are respectively and vertically fixed with a fixed support rod, the top end of the installation bottom plate is provided with a treatment box, two ends of two sides of the treatment box are respectively and fixedly provided with a fixed block, the bottom end of each fixed block is fixedly provided with a compression spring, the bottom end of each compression spring is fixedly connected with the top end of the corresponding fixed support rod, the top end of one side inside the treatment box is fixedly provided with an installation seat, the top and the bottom inside the treatment box are respectively and transversely provided with a plate-shaped electromagnet, a plurality of groups of through holes are respectively arranged in the plate-shaped electromagnets in a penetrating manner, one side of the top end of the treatment box is fixedly provided with a feeding port, one side of the top end inside the treatment box is fixedly provided with a suction port, a filter screen is arranged inside the suction port, and the top and the bottom of two sides inside the treatment box are respectively and fixedly provided with fixed feet, the inside of fixed foot one side is provided with the inside groove, the both sides of handling the bottom half are fixed with vibrating motor respectively, handle the intermediate position department of bottom half and be fixed with the discharge gate.

Preferably, the top and the bottom of processing incasement portion transversely are provided with the mounting bracket respectively, the both sides of mounting bracket are fixed with the slider respectively, the rear end of slider is fixed with the stopper, the slider inlays in the inside of inside groove.

Preferably, the fixing legs are symmetrically arranged about a vertical center line of the treatment tank, and the inner part of the inner tank is arranged in two sections.

Preferably, one side of mount pad is fixed with the screen cloth, the inside of handling case one side top is provided with logical groove, and leads to the groove and run through the one side of handling the case, the inside that leads to the groove is run through to one side of screen cloth, the top of handling case one side is fixed with the material receiving box.

Preferably, a shell is fixed on one side of the treatment box, a negative pressure fan is fixed at the bottom end inside the shell, a dust collection cylinder is arranged inside the shell, a fixed pipe is fixed at the top end of the shell, and a corrugated hose is fixed on one side of the fixed pipe.

Preferably, one side of the fixed pipe penetrates through the top end of the shell and is communicated with the interior of the dust collection cylinder, the other side of the fixed pipe is communicated with the interior of the corrugated hose, and one side of the corrugated hose penetrates through one side of the top end of the treatment box and is communicated with the interior of the suction opening.

Compared with the prior art, the utility model has the beneficial effects that: the device for producing the high-purity quartz sand by the composite method not only realizes the convenience of dismounting the magnetic separation component in the device, realizes the convenience of carrying out auxiliary size screening on quartz particles before magnetic separation, but also realizes the convenience of timely processing a large amount of smoke dust generated in the magnetic separation process;

(1) by arranging the inner grooves, the fixing feet, the mounting rack, the sliding blocks and the limiting blocks, when the device is used for dismounting the plate-shaped electromagnet for magnetic separation in the treatment box, the mounting rack can be drawn out from the inner grooves on two sides in the treatment box by sliding the sliding blocks fixed on two sides at one end of the treatment box, and meanwhile, the limiting blocks are respectively fixed at the rear ends of the two groups of sliding blocks in the process of pulling the sliding blocks in the inner grooves, when the mounting rack is drawn out from the inner grooves, the inner part of the inner grooves is arranged in a two-section structure, the limiting blocks can be clamped at the front end in the inner grooves in the drawing process to limit the drawing position of the mounting rack so as to prevent the mounting rack from falling off, after the mounting rack is drawn out from the inner part of the treatment box, the mounting rack is arranged in the mounting rack by arranging the plate-shaped electromagnet, the mounting rack is communicated with the inner part of the treatment box, quartz particles can be subjected to magnetic separation from the inner part of the plate-shaped electromagnet, the bottom end of the mounting rack falls to the bottom end of the treatment box for discharging;

(2) through the installation seat, the through groove of the screen and the material receiving box, in the process of removing iron mineral magnetic separation from processed quartz particles, the quartz particles to be subjected to magnetic separation can be guided into the processing box through the material inlet and fall to the top end of the screen, the processing box is driven to vibrate integrally through the vibration motor, the quartz particles falling to the top end of the screen are screened according to the size of the screen, the quartz particles meeting the size of the particles can fall onto the plate-shaped electromagnet from the screen for magnetic separation, the quartz particles not meeting the size can be guided out of the processing box from one side of the screen through the through groove and collected by the material receiving box, and the quartz particles are screened in an auxiliary size before being subjected to magnetic separation;

(3) through being provided with the suction mouth, the filter screen, the bellows, fixed pipe, and a housing, a dust collection section of thick bamboo and negative-pressure air fan, it can adhere to and produce a large amount of smoke and dust to handle the in-process that the case vibration carries out the magnetic separation processing to quartz particle, can start through the inside negative-pressure air fan at the shell, utilize fixed pipe and bellows and handle the inside one side suction mouth of incasement and suction the smoke and dust of inside, the inside of suction mouth is provided with the filter screen simultaneously, can reduce the solid particle entering and cause the jam, the suction mouth takes the back out the smoke and dust, the leading-in inside to a dust collection section of thick bamboo of bellows and fixed pipe via the intercommunication is collected.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is an enlarged bottom view of the mounting bracket of the present invention;

FIG. 3 is an enlarged side view of a partial cross-section of the inner tank of the present invention;

FIG. 4 is an enlarged partial cross-sectional view taken at A in FIG. 1 according to the present invention;

fig. 5 is an enlarged partial sectional view of the dust collecting container according to the present invention.

In the figure: 1. mounting a bottom plate; 2. fixing the supporting rod; 3. a treatment tank; 4. an inner tank; 5. a fixing leg; 6. a compression spring; 7. a fixed block; 8. a mounting seat; 9. a plate-shaped electromagnet; 10. a feeding port; 11. a suction port; 12. filtering with a screen; 13. a corrugated hose; 14. a fixed tube; 15. a mounting frame; 16. a slider; 17. a vibration motor; 18. a discharge port; 19. a limiting block; 20. screening a screen; 21. a through groove; 22. a material receiving box; 23. a housing; 24. a dust collecting cylinder; 25. a negative pressure fan.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-5, a device for producing high-purity quartz sand by a composite method comprises a mounting base plate 1, wherein two ends of two sides of the top of the mounting base plate 1 are respectively and vertically fixed with a fixed support rod 2, the top of the mounting base plate 1 is provided with a processing box 3, two ends of two sides of the processing box 3 are respectively and fixedly provided with a fixed block 7, the bottom of the fixed block 7 is fixedly provided with a compression spring 6, the bottom of the compression spring 6 is fixedly connected with the top of the fixed support rod 2, the top of one side inside the processing box 3 is fixedly provided with a mounting seat 8, the top and the bottom inside the processing box 3 are respectively and transversely provided with a plate-shaped electromagnet 9, the inside of the plate-shaped electromagnet 9 is respectively provided with a plurality of groups of through holes in a penetrating manner, one side of the top of the processing box 3 is fixedly provided with a feeding port 10, one side of the top inside of the processing box 3 is fixedly provided with a suction port 11, the inside of the suction port 11 is provided with a filter screen 12, and the top and the bottom of two sides inside the processing box 3 are respectively and fixedly provided with fixed feet 5, an inner groove 4 is arranged in one side of the fixed foot 5, two sides of the bottom end of the treatment box 3 are respectively fixed with a vibration motor 17, and a discharge hole 18 is fixed at the middle position of the bottom end of the treatment box 3;

the top end and the bottom end of the inside of the treatment box 3 are respectively and transversely provided with a mounting frame 15, two sides of the mounting frame 15 are respectively fixed with a sliding block 16, the rear end of the sliding block 16 is fixed with a limiting block 19, the sliding block 16 is embedded in the inside of the inner groove 4, the fixing feet 5 are symmetrically arranged relative to the vertical central line of the treatment box 3, and the inside of the inner groove 4 is arranged in a two-section mode;

specifically, as shown in fig. 1, 2 and 3, when the device is used for mounting and dismounting the plate-shaped electromagnet 9 for magnetic separation inside the processing box 3, the mounting frame 15 can be slid out and drawn out from the inner grooves 4 on both sides inside the processing box 3 by using the sliders 16 fixed on both sides at one end of the processing box 3, and the stoppers 19 are respectively fixed to the rear ends of the two sets of sliders 16 during the process of drawing the sliders 16 inside the inner grooves 4, and when the device is drawn out from the inner grooves 4, the inside of the inner grooves 4 is provided in a two-stage structure, the stoppers 19 can be clamped at the front end inside the inner grooves 4 during the drawing process to limit the drawing position of the mounting frame 15, so as to prevent the mounting frame 15 from falling off, and after the mounting frame 15 is drawn out from the inside of the processing box 3, the plate-shaped electromagnet 9 is mounted and placed inside the mounting frame 15, so that the mounting frame 15 is communicated with the inside of the processing box 3, the quartz particles can fall to the bottom end of the treatment box 3 via the bottom end of the mounting frame 15 to be discharged after being magnetically separated from the inside of the plate-shaped electromagnet 9.

Example 2: a screen mesh 20 is fixed on one side of the mounting seat 8, a through groove 21 is formed in the top end of one side of the treatment box 3, the through groove 21 penetrates through one side of the treatment box 3, one side of the screen mesh 20 penetrates through the inside of the through groove 21, and a material receiving box 22 is fixed on the top of one side of the treatment box 3;

specifically, as shown in fig. 1 and 4, in the process of removing the magnetic separation of iron minerals from the processed quartz particles, the quartz particles to be subjected to magnetic separation can be guided into the processing box 3 through the feeding port 10 and fall to the top end of the screen 20, the processing box 3 is driven by the vibration motor 17 to vibrate integrally, the quartz particles falling to the top end of the screen 20 are screened according to the size of the screen 20, the quartz particles meeting the size of the particles can fall from the screen 20 to the plate-shaped electromagnet 9 for magnetic separation, the quartz particles not meeting the size can be guided out of the processing box 3 through the through groove 21 from one side of the screen 20 and collected by the receiving box 22, and the quartz particles are screened according to the size before being subjected to magnetic separation.

Example 3: a shell 23 is fixed on one side of the treatment box 3, a negative pressure fan 25 is fixed at the bottom end inside the shell 23, a dust collection cylinder 24 is arranged inside the shell 23, a fixed pipe 14 is fixed at the top end of the shell 23, a corrugated hose 13 is fixed on one side of the fixed pipe 14, one side of the fixed pipe 14 penetrates through the top end of the shell 23 and is communicated with the inside of the dust collection cylinder 24, the other side of the fixed pipe 14 is communicated with the inside of the corrugated hose 13, and one side of the corrugated hose 13 penetrates through one side of the top end of the treatment box 3 and is communicated with the inside of the suction port 11;

specifically, as shown in fig. 1 and 5, a large amount of soot is adhered to and generated during the process of magnetically separating the quartz particles by the vibration of the processing box 3, the soot inside can be sucked by the fixed pipe 14, the corrugated hose 13 and the suction port 11 on one side inside the processing box 3 by starting the internal negative pressure fan 25 in the housing 23, the filter screen 12 is arranged inside the suction port 11, so that the blockage caused by the solid particles entering can be reduced, and after the soot is extracted by the suction port 11, the soot is guided into the dust collection cylinder 24 through the corrugated hose 13 and the fixed pipe 14 which are communicated with each other and is collected.

The working principle is as follows: when the utility model is used, in the process of removing iron minerals and magnetically separating processed quartz particles, the quartz particles to be magnetically separated are guided into the processing box 3 through the feeding port 10 and fall to the top end of the screen mesh 20, the vibration motor 17 drives the processing box 3 to vibrate integrally, the quartz particles falling to the top end of the screen mesh 20 are screened by the screen mesh 20, the quartz particles meeting the particle size of a particle are dropped onto the plate-shaped electromagnet 9 from the screen mesh 20 for magnetic separation, the quartz particles not meeting the size are guided out of the processing box 3 from one side of the screen mesh 20 through the through groove 21 and are collected by the material receiving box 22, so that the quartz particles are screened in an auxiliary size before the magnetic separation, when the plate-shaped electromagnet 9 for magnetic separation in the processing box 3 is disassembled, the mounting frame 15 can be pulled out from the inner grooves 4 on two sides in the processing box 3 by utilizing the sliders 16 fixed on two sides at one end of the processing box 3, meanwhile, in the process of pulling the sliding blocks 16 in the inner groove 4, the limiting blocks 19 are respectively fixed at the rear ends of the two groups of sliding blocks 16, when the sliding blocks are pulled out from the inner groove 4, the inner part of the inner groove 4 is in a two-section structure, the limiting blocks 19 can be clamped at the front end in the inner groove 4 to limit the pulling-out position of the mounting frame 15 in the pulling-out process, the mounting frame 15 is prevented from falling off, after the mounting frame 15 is pulled out from the inside of the treatment box 3, the plate-shaped electromagnet 9 is installed and placed in the mounting frame 15, the mounting frame 15 is communicated with the inside of the treatment box 3, quartz particles can be subjected to magnetic separation from the inside of the electrified plate-shaped electromagnet 9, fall to the bottom end of the treatment box 3 through the bottom end of the mounting frame 15 to be discharged, meanwhile, a large amount of smoke dust can be generated by adhesion in the process of performing magnetic separation on the quartz particles by vibration of the treatment box 3, and can be started by the negative pressure fan 25 in the outer shell 23, utilize fixed pipe 14 and corrugated hose 13 and handle the inside one side suction port 11 of case 3 to suction inside smoke and dust, the inside of suction port 11 is provided with filter screen 12 simultaneously, can reduce the solid particle and get into and cause the jam, suction port 11 takes out the back with the smoke and dust, the leading-in inside to dust collection tube 24 of corrugated hose 13 and fixed pipe 14 via the intercommunication is collected, after carrying out the magnetic separation with quartz granule, the rethread starts vibrating motor 17 and drives and handle case 13 vibration, and break off the power supply with plate electromagnet 9 and get rid of the adsorbed iron mineral above.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The device for producing high-purity quartz sand by the composite method comprises an installation bottom plate (1), and is characterized in that: the device is characterized in that fixing support rods (2) are vertically fixed at two ends of two sides of the top of the mounting base plate (1) respectively, a processing box (3) is arranged at the top end of the mounting base plate (1), fixing blocks (7) are fixed at two ends of two sides of the processing box (3) respectively, compression springs (6) are fixed at the bottom ends of the fixing blocks (7), the bottom ends of the compression springs (6) are fixedly connected with the top ends of the fixing support rods (2), a mounting seat (8) is fixed at the top end of one side inside the processing box (3), plate-shaped electromagnets (9) are transversely arranged at the top and the bottom inside the processing box (3) respectively, a plurality of groups of through holes are arranged inside the plate-shaped electromagnets (9) in a penetrating mode respectively, a feeding port (10) is fixed at one side of the top end of the processing box (3), and a suction port (11) is fixed at one side of the top end inside the processing box (3), the inside of suction opening (11) is provided with filter screen (12), the top and the bottom of the inside both sides of processing case (3) are fixed with fixed foot (5) respectively, the inside of fixed foot (5) one side is provided with inside groove (4), the both sides of processing case (3) bottom are fixed with vibrating motor (17) respectively, the intermediate position department of processing case (3) bottom is fixed with discharge gate (18).

2. The device for producing high-purity quartz sand by the composite method according to claim 1, is characterized in that: the treatment box is characterized in that a mounting rack (15) is transversely arranged at the top end and the bottom end inside the treatment box (3) respectively, sliders (16) are fixed to two sides of the mounting rack (15) respectively, a limiting block (19) is fixed to the rear ends of the sliders (16), and the sliders (16) are embedded inside the inner grooves (4).

3. The device for producing high-purity quartz sand by the composite method according to claim 1, is characterized in that: the fixed feet (5) are symmetrically arranged about the vertical center line of the treatment box (3), and the inner part of the inner groove (4) is arranged in a two-section mode.

4. The device for producing high-purity quartz sand by the composite method according to claim 1, is characterized in that: one side of mount pad (8) is fixed with screen cloth (20), the inside of handling case (3) one side top is provided with logical groove (21), and leads to groove (21) and run through the one side of handling case (3), the inside that leads to groove (21) is run through to one side of screen cloth (20), the top of handling case (3) one side is fixed with and connects workbin (22).

5. The device for producing high-purity quartz sand by the composite method according to claim 1, is characterized in that: a shell (23) is fixed on one side of the treatment box (3), a negative pressure fan (25) is fixed at the bottom end inside the shell (23), a dust collection barrel (24) is arranged inside the shell (23), a fixed pipe (14) is fixed at the top end of the shell (23), and a corrugated hose (13) is fixed on one side of the fixed pipe (14).

6. The device for producing high-purity quartz sand by the composite method according to claim 5, is characterized in that: one side of the fixed pipe (14) penetrates through the top end of the shell (23) and is communicated with the interior of the dust collection cylinder (24), the other side of the fixed pipe (14) is communicated with the interior of the corrugated hose (13), and one side of the corrugated hose (13) penetrates through one side of the top end of the treatment box (3) and is communicated with the interior of the suction opening (11).

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